HEADQUARTERS: Dräger Safety AG & Co. KGaA Revalstrasse 1 23560 Lübeck, Germany www.draeger.com SUBSIDIARIES: AUSTRALIA Draeger Safety Pacific Pty. Ltd. Axxess Corporate Park Unit 99, 45 Gilby Road Mt. Waverley. Vic 3149 Tel +61 3 92 65 50 00 Fax +61 3 92 65 50 95 FRANCE Dräger Safety France SAS 3c route de la Fédération, BP 80141 67025 Strasbourg Cedex 1 Tel +33 3 88 40 59 29 Fax +33 3 88 40 76 67 NETHERLANDS Dräger Safety Nederland B.V. Edisonstraat 53 2700 AH Zoetermeer Tel +31 79 344 46 66 Fax +31 79 344 47 90 SPAIN Draeger Safety Hispania S.A. Calle Xaudaró 5 28034 Madrid Tel +34 91 728 34 00 Fax +34 91 729 48 99 MEXICO Draeger Safety S.A. de C.V. Av. Peñuelas No. 5 Bodega No. 37 Fraccionamiento Industrial San Pedrito Querétaro, Qro México Tel +52 442 246-1113 Fax +52 442 246-1114 REP. OF SOUTH AFRICA Dräger South Africa (Pty) Ltd. P.O.Box 68601 Bryanston 2021 Tel +27 11 465 99 59 Fax +27 11 465 69 53 SINGAPORE Draeger Safety Asia Pte. Ltd. 67 Ayer Rajah Crescent # 06 03 139950 Singapore Tel +65 68 72 92 88 Fax +65 65 12 19 08 UNITED KINGDOM Draeger Safety UK Ltd. Blyth Riverside Business Park Blyth, Northumberland NE24 4RG Tel +44 1670 352-891 Fax +44 1670 356-266 P. R. CHINA Beijing Fortune Draeger Safety Equipment Co., Ltd. Yu An Lu A 22, B Area Beijing Tianzhu Airport Industrial Zone Houshayu Shunyi District Beijing 101300 Tel +86 10 80 49 80 00 Fax +86 10 80 49 80 05 90 45 782 11.11-3 Marketing Communications BM LE Printed in Germany Chlorine-free environmentally compatible Subject to modifications 2011 Drägerwerk AG & Co. KGaA D-22945-2010 Guide for selection and use of filtering devices
Application recommendations for masks and filters The following table shows various application fields and the suitablemask-filter-combination recommended. Here you can find a detailed list of examples of applications. HM = half mask, VM = full face mask Business field Task Application Containment Mask type* Filter* General Handling of chemical substances particles and potentially HM o. FM ABEK Hg P3 1) identified substances Sampling particles or/and potentially HM P3 / ABEK Hg P3 1) identified substances Inspection particles and potentially HM ABEK P3 identified substances oder Fluchtgerät Measurement particles or/and potentially HM P3 / ABEK P3 1) identified substances Mixing of epoxy resins and organic vapors HM A1 polyester resins Spraying/lubricating of coolant mist oil particles HM / FFP2 P2 Treatment with preservatives different HM ABEK P2 Transport of dangerous goods various FM ABEK2 Hg P3 Cleaning high pressure steam blasting soap sud mist containing HM / FFP1 P1 adhesions Cleaning degreasing grease particles HM / FFP2 P2 Cleaning disinfecting organic vapors HM A1 P2 Cleaning disinfecting with agents organic and HM AB P2 containing aldehydes inorganic vapors Cleaning handling of petroleum ether or solvent vapors HM A2 diluent for cellulose lacquers (solvent based) Cleaning with acids acids HM ABE P2 Construction Casting, die casting of concrete, cement (foundations) concrete dust HM / FFP2 P2 Asbestos removal asbestos asbestos fibers HM / FFP3 P3 Grinding, cutting, on brickwork, concrete, stone powder HM / FFP2 P2 2) stone and plaster Grinding, cutting, of cement dust particles HM / FFP1 P1 Grinding, cutting, of knifing filler of filling material dust particles HM / FFP1 P1 3) Paving tar organic vapors, particles HM A1 P2 / A2 P2 4) Finishing processing of glass fiber and dust particles and fibers HM / FFP2 P2 mineral fiber, e.g. roof insulation Finishing plastering fine plaster dust HM / FFP2 P2 Finishing sealing organic vapors HM A1 P2 / ABE1 P2 Finishing clinkering (glue) organic vapors HM A1 P2 5) Finishing roofing, tiling tile and brick dust HM / FFP2 P2 Preparation excavation of contaminated soil gases, solvents, dust particles HM ABE1 P2 Preparation general demolition of dust particles HM / FFP2 P2 brickwork, concrete, stone
Business field Task Application Containment Mask type* Filter* Wood Paint removal flame cleaning of old coats of paint gases, vapors, smoke, HM o. FM A1B1 P2 working fine particles Paint removal stripping of old coats of paint solvent vapors HM A1 / ABEK 5) using solvent based agents Paint removal stripping of old coats of paint with solvent vapors, ammonia HM ABEK substances containing ammonia Paint removal sanding, brushing off of fine paint particles HM / FFP2 P2 old coats of paint, coatings Paint removal sanding, brushing off of old coats fine paint particles VM / FFP3 2) P3 of paint, coatings containing chromium Removal of adhesives scraping off, sanding of adhesives fine particles HM / FFP2 P2 such as polyester resin Gluing using solvent based substances solvent vapors HM A2 Gluing using solvent based substances adhesive mist, HM A2 P2 (spray adhesives, e.g. polyester resin) solvent vapors Gluing with strong epoxy resin adhesive vapors HM A2 P2 Grinding, cutting, of wood wood dust particles HM / FFP2 P2 Grinding, cutting, of beech wood and oak wood wood dust particles HM / FFP3 P3 Metal Electroplating possibly hydrocyanic acid HM AB P2 working Soldering smoke particles HM / FFP2 P2 Soldering additionally with smoke particles, gases, HM ABEK P2 soldering paste possibly ammonia Grinding, cutting, of rust rust powder, metallic powder HM / FFP1/2 P1 / P2 Grinding, cutting, of metals metallic powder HM / FFP2/3 P2 / P3 Grinding, cutting, of iron metallic powder HM / FFP1 P1 Grinding, cutting, of steel metallic powder HM / FFP1/2 P1 / P2 Grinding, cutting, of stainless steel (high alloy) metallic powder HM / FFP1/3 P2 / P3 Cutting with laser beam metallic powder HM / FFP3 P3 Welding of aluminium aluminium oxide smoke, ozone HM / FFP3 P3 / A P3 4) Welding of motor vehicles metallic smoke, ozone, Nox HM AB P2 Welding manual arc welding using metallic powder, smoke HM / FFP3 P3 covered rod electrodes or laser beam welding Welding / rivetting of construction steel and zinc metallic powder, welding smoke HM / FFP2 P2 / ABE1 P2 4 ) Welding / rivetting of stainless steel metallic powder, VM / FFP3 P3 / ABE1 P3 4) (Thorium electrode) metallic oxide smoke Paintwork Grinding, cutting, of paint, lacquers and fine paint particles HM / FFP2 P2 anticorrosion paint Grinding, cutting, of paint, lacquers and anticorrosion fine paint particles VM / FFP3 2) P3 paint (contaning chromium)
Business field Task Application Containment Mask type* Filter* Paintwork Grinding, cutting, of anti-fouling lacquers fine paint particles HM A1 P3 Spraying, varnishing with water soluble paint fine paint mist HM A1 P2 Spraying, varnishing with water soluble wood fine paint mist VM / FFP3 2) P3 preservatives containing copper, chromium or arsenic Spraying, varnishing with solvent based paint, synthetic solvent vapors and mist HM A2 P2 5) lacquer and bleaching agents Spraying, varnishing with latex paint paint particles HM / FFP2 P2 Spraying, varnishin gof latex paint with the presence solvent vapors and HM A2 P2 of residual solvents or odors paint particles Spraying, varnishing of isocyanates (solvent based) solvent vapors and HM A2 P2 paint particles Spraying, varnishing with lacquers and wood organic vapors HM A1 P2 / A2 P2 4) preservatives Painting with water soluble paint big drops and spots HM A1 / A1 P2 of paint, vapors Painting with solvent based paint, lacquers solvent vapors HM A1 / A1 P2 5) and wood preservatives Painting with anti-fouling paint solvent vapors HM A1 / A1 P3 Plastic Grinding, cutting, of plastics plastic powder HM / FFP2 P2 / AB P2 7) manufacturing Waste Sweeping dust dust particles HM / FFP3 P3 management General handling waste sorting where odors, gases and dust particles HM A P3 bacteria or spores are present General handling contact with mold / fungus spores fungus spores HM / FM / P2 5) FFP2 Power plant Filter exchange contaminated dust particles HM / FFP3 P3 arbeiten and revision Farming General handling handling of liquid manure gases and vapors HM ABEK Spraying of pesticides (aqueous solutions) insecticides / pesticides HM / FFP2 P2 Spraying of pesticides (organic, evaporating) insecticides / pesticides HM A1 P2 Sweeping of barn dust particles HM / FFP2 P2 Odour Usage/cleaning of animal feeding systems dust particles HM / FFP2 P2 Odour Cleaning/draining of chicken / pigs farm manure pits ammonia, H 2 S HM ABE -P2 8) Medical General handling contact with bacteria bacteria HM / FFP2 P2 science General handling contact with viruses viruses FM / FFP3 P3 Swimming Cleaning bacteria HM / FFP2 P2 pools Cleaning additionally water treatment bacteria and gases FM AB2 P2 with chlorine Autobody Repair changing clutch and brake pads fine dust, asbestos HM / FFP3 P3 Contact with diesel soot / smoke sooty particles HM / FFP2 P2 1) observe exceptions 5) AX for low-boiling substances 2) dependent on the concentration of gaseous substances 6) FM depending on the concentration 3) P2 if caustic 7) AB, if gases might be produced 4) depending on the concentration 8) FFP2 Odour for gases below OEL * Remarks This table is a guide to selecting the appropriate respiratory protection products. This guide does not release the user from the obligation to comply with national application regulations and laws and is not a substitute for adhering to and understanding the product instruction manuals.
This brochure will give you a brief overview of the most important factors to consider when choosing filtering respiratory protection devices. This information can help you protect yourself against harmful substances in the air by selecting the appropriate masks and filters. 1. What must I consider when choosing a respirator? The hazards in your environment must be known, as well as the work requirements and the external conditions. Additionally you must take into consideration the protection level required by your respirator as well as the type and protection level of the necessary filter. 2. Please check the following before using filtering respiratory protection: Is there enough oxygen in the ambient air? (see your local legislative requirements in Germany a minimum of 17 vol. % is required) What contaminants are in the ambient air? What are the concentrations of the contaminants? Are the contaminants in gas, particle, or vapour form? Or are they a mixture? Do the contaminants have adequate warning properties (e.g. smell or taste?) What are the applicable Occupational Exposure Limits? (OEL) In addition to respiratory protection, is other personal protection equipment (e.g. eye or ear protection) required? 3. Which respirator should I choose? It is necessary to answer all of the above questions (in 2.) to determine the needed protection factor. Table 1 gives you a brief overview of the nominal protection factors (NFP) for respiratory protective devices. The NFP is the highest permissible leakage level according to the approval requirements of the respective device. It indicates the mathmetically calculated maximum protection performance. To evaluate the minimum required protection factor you will need to know the concentration of the hazardous substance you are dealing with as well as the assigned Occupational Exposure Limit (OEL) of the substance. An OEL (like MAK, WEL or MAC) is the concentration of a specific airborne substance averaged over a reference period, which shows no evidence to be threatening to ones health if exposed to it, at that concentration, on a daily basis. Table 1: List of respiratory protective devices Device Marking Nominal protection faktors 1) Particle filtering devices Filtering facepiece FFP1 4 FFP2 12 FFP3 50 Quarter / Half mask P1 4 with filter P2 12 P3 48 Full face mask P1 5 with filter P2 16 P3 1000 PAPR with TH1P 10 helmet or hood TH2P 50 TH3P 500 PAPR with quarter / TM1P 20 half or full face mask TM2P 200 (power on) TM3P 2000 Gas filtering devices Quarter/half mask with filter 50 Full face mask with filter 2000 1) Values have been taken from the CEN Report 529. Additional national and local regulations must be followed. Keep in mind that the performance indicated by the nominal protection factor can only be achieved when the respiratory protective device is worn correctly and has been properly maintained. Make sure you choose the size that fits best for your face. Also, a respirator should only be worn on cleanly shaven faces, as facial hair in the sealing area causes leakage. Example: Determining the needed protection factor of your respirator Contaminant: Lead dust (particle protection is needed Concentration at the workplace: 3 mg/m 3 OEL (Occupational Exposure Limit): 0,1 mg/m 3 Minimum protection factor = concentration of hazardous substance 3 = = 30 OEL 0,1
You can see in table 1 that with a needed minimum protection factor of 30 for lead dust, you will need to use a P3-filter either in the form of an FFP (filtering facepiece), or together with a half mask, a full face mask, or PAPR. In the case where the contaminants are present in both particle and gas form, the nominal protection factor must be established for each one separately. For the selection of filtering devices, the higher protection factor must be applied. The concentration of gases is measured in ppm (parts per million = volume of the substance within 1 m 3 of air) or mg/m 3 (= weight ofthe substance within 1 m 3 of air) and the concentration of particles(dust) only in mg/m 3. While mg/m 3 deals with weight and ppm with volume, there is no direct calculation for mg/m 3 to ppm. Higher concentrations are often indicated in % by volume, 10,000 ppm = 1 vol. %. 5. How to select the right filter? Contaminants come in different forms generally: aerosols (solids/particles) and gases (gases, vapours). You can choose between the filter types to protect against one of these forms or a combination of both of them. Solids / particles: Dusts, fibres, fumes, microorganisms (e.g. viruses, bacteria, fungi, spores) and mists Gaseous substances: Gases and vapours The following table shows you the color coding of filters according to EN14387 which helps you to determine which filter-type is needed for the contaminants you are dealing with. Table 2: Colour-Coding for Filters 4. What is the maximum concentration of the contaminantfor which I can use respiratory protection? You can determine the maximum permissible concentration by multiplying the nominal protection factor (as found in table 1) by the Occupational Exposure Limit (OEL). Maximum permissible concentration = nominal protection factor x OEL Example: Determining the maximum permissible concentration 2) Contaminent: Chlorine OEL: 0.5 ppm (Occupational Exposure Limit) Respirator: Full Face Mask (Nominal protection factor of full face mask with gas cartridge: 2000) Nominal Protection = Maximum permissible concentration Factor x OEL 2000 x 0.5 = 1000 ppm or 0,1 vol. % Chlorine As you see, the maximum permissible concentration for chlorine is 1000 ppm or 0.1 vol. %. 2) Values and terms of calculation have been taken from the CEN Report 529. Additional national and local regulations must be followed. Values of OEL base on MAK according to German regulations and thereof time-weighted average values over a reference period and not any short term exposure limits. Colour code Filter type Contaminants present AX 3) Gases and vapours of organic compounds with boiling point 65 C A Gases and vapours of organic compounds with boiling point > 65 C B Inorganic gases and vapours, e.g. chlorine, hydrogen sulphide, hydrogen cyanide E Sulphur dioxide, hydrogen chloride K Ammonia and organic Ammonia derivates CO 4) Carbon monoxide Hg 5) Mercury vapour NO 6) Nitrous Gases including nitrogen monoxide Reactor 7) Radioactive iodine including radioactive methyl iodide P Particles 3) AX filters may only be used as supplied from factory. Reuse and use against gas-compounds is absolutely impermissible. 4) CO filters for one time use only. Must be disposed after use. Special guidelines according to local regulations apply. 5) Hg Filters can only be used for a maximum of 50 hours according to EN 14387. 6) NO filters for one time use only. Must be disposed after use. 7) Reactor filters: special guidelines according to local regulations apply. Differentiation of filter types Filters are split in different classes according to their capacity (gas filters) or their efficiency (particle filters), see table 3. Gas filters of class 2 may be used at higher concentrations or for a longer time than class 1 filters. The class of a particle filter indicates how efficient the filter is in filtering out particles. (class 1: 80%, class 2: 94%, class 3: 99.95%).
Table 3: Differentiation of filter types Filter Filter Protection Maximum permissible type class against concentration of toxic substance Gas filter Gases and vapours Capacity: 50 times the OEL with half masks / 2000 times the OEL with full face masks, but maximal: 1 Small 0.1 vol. % (1000 ppm) 8) 2 Medium 0.5 vol. % (5000 ppm) 8) 3 Large 1.0 vol. % (10000 ppm) 8 Particle Particles filter Efficiency (seperation ability): 1 Small 4 times the OEL with half masks / 5 times the OEL with full face masks 10) 2 Mediuml 12 times the OEL with half masks / 16 times the OEL with full face masks 10) 3 Large 48 times the OEL with half masks / 1000 times the OEL with ful face masks 10) Example: Lead dust OEL = 0.1 mg/m 3 4 x 0.1 mg/m 3 = 0.4 mg/m 3 = maximum permissible concentration of lead dust for the usage of P1-filter with half masks. Combined Gases, vapours and particles filter 1-P2 Appropriate Appropriate 2-P2 combined gas combined levels 1-P3 and particulate 2-P3 filters 8) Values taken from the European Norm EN 14387 9) Values taken from the European Norm EN 12941 and 12942 10) Values taken from the CEN Report 529 Additional national and local regulations must be followed. Example Filter Types: A2B2 P3 A filter with the above mentioned colour code is suitable for the following contaminants: A gases and vapours of organic compounds with a boiling point beyond 65 C up to concentrations covered by filter class 2 and B inorganic gases and vapours, e.g. chlorine, hydrogensulphide, hydrogen cyanide, up to concentrations covered by filter class 2 and P particles up to concentrations covered by filter class 3. 6. When using filtering respiratory protection, always keepthe following in mind: Never use any kind of filtering respiratory protection device... in oxygen deficient atmospheres (see local legislation for further guidelines e.g. Germany less than 17 vol. % O 2 ) in poorly ventilated areas or confined spaces, such as tanks, small rooms, tunnels, or vessels in atmospheres where the concentrations of the toxic contaminants are unknown or are immediately dangerous to life or health (IDLH) when the concentration of a contaminant is higher than the maximum permissible concentration and / or the filter class capacity when the contaminant has poor or no warning properties (smell, taste or irritation), such as aniline, benzene, carbon monoxide, and ozone Immediately leave the area if... breathing resistance increases noticeably you began to feel dizzy you smell, taste, or become irritated by the contaminant your respirator is damaged Make sure that... the selected respirator fits properly if both gases and particles are present, that you use a combination filter, to filter out both gases and particles 7. How long does a filter last? The service life of a respiratory filter depends on its size and on the conditions of use. Factors affecting service life: concentration of the contaminants combination of the contaminants air humidity temperature duration of use breathing rate of the user Since the service life is influenced by so many different factors it is not possible to give an estimated service life. Important is: local / company regulations The end of service life is generally recognizable by: in gas filters by a noticeable taste or smell of the contaminant in particle filters by an increased breathing resistance in combination filters a noticeable taste or smell and/or an increased breathing resistance
Table 4:Examples of contaminants, their OEL s (here: AGWs, valid for Germany) and filter recommendations This is only a small choice of contaminants as example. For more information and a wide choice of contaminants please try our Dräger VOICE filter selection program on the internet (www.draeger.com/voice). Containment OEL Filter Colour ppm mg/m 3 type code A Acetic acid 10 25 B [E] P2 Acetone 500 1200 AX Ammonia 50 35 K Asbestos carcinogen (cat. 1) P3 B Benzene Buta-1,3-diene carcinogen (cat. 1) A carcinogen (cat. 1) AX (P3) C Carbon monoxide 30 35 CO Chlorine 0.5 1.5 B (P3) Cyclohexane 200 700 A (P2) D DDT 1 A (P3) Dimethyl ether 1000 1900 AX (P3) E Ethanol 1000 1900 A (P2) Ethyl acetate 400 1500 A (P2) F Formaldehyde 0,3 0,37 B (P3) Containment OEL Filter Colour ppm mg/m 3 type code L Lindane 0,5 A (P3) M Mercury 0.01 0.1 Hg (P3) Methanol 200 270 AX (P3) 4-Methyl-2-pentanone 20 83 A (P2) Mineral wool fibers P3 N Nitrous fumes - - NO (P3) O Ozone carcinogen (cat. 3B) NO (P3) P n-pentane 1000 3000 AX (P3) Phosgene 0.02 0.08 B (P3) S Sulphur dioxide 0.5 1.3 E (P3) T Toluene 50 190 A (P2) V Vinyl chloride 2 5 AX (P3) X Xylene, all isomers 100 440 A (P2) Please note: e.g. A (P2): Gas filter is required (e.g. A); if the substance is also present in particulate matter or particles occur, a combined filter is required (e.g. A P2) e.g. B [E] P2: B P2 filter is required; alternatively, an E filter can be used instead of the B filter No responsibility is taken for the correctness of this information. Please check your local regulations. H n-hexane 50 180 A (P2) Hydrochloric acid, B [E] P2 fuming (37%) Hydrogen chloride 8 B [E] P2 Hydrogen cyanide 10 11 B (P3) Hydrogen fluoride 3 2.5 B [E] (P3) Hydrogen peroxide 1 1.4 CO[NO]P3 Hydrogen Sulfide 10 14 B (P3) I Isooctane A (P2)